Dr K Muraleedharan: Resume Page 1
RESUME
1. Name in full: Dr. K. MURALEEDHARAN
2. Date of Birth: 15-October-1960
3. Designation & Address: Director CSIR-Central Glass & Ceramic
Resarch Institute Kolkata-700032 [email protected], [email protected], [email protected] Tel : (033) 2473-5829, 2483-9241 (O) Fax :(033) 2473-0957 (O) Mob: (0) 98682 03255
4. Educational Qualifications:
S. No. Degree/ Certificate
Year of Passing
University/ Institution
Subject
1 B Tech 1983 Banaras Hindu
University-Institute of Technology
Metallurgical Engineering
2 Ph D 1994
5.Academic/Research/Experience/Employment:
S. No
Period of service Name of Organization Position held From To
1. July 1983 Oct 1984
Mishra Dhatu Nigam Hyderabad
Graduate Engineer Trainee
2. Oct 1984 July 1995 DMRL
Hyderabad Group Head
(Scientist B, C, and D) 3.
July 1995 Oct 1997 Carnegie Mellon
University, Pittsburgh, USA
Post-Doctoral Fellow
4. Nov 1997 Apr 2003
DMRL Hyderabad
Group Head & Project Leader(Scientist D, E and F)
5. May 2003 Apr 2005
G-FAST, Delhi DRDO Think Tank)
Team MemberScientist F
6. Apr 2005 Dec 2010 DMRL
Hyderabad
Group Head Project Leader & Head, MM
(Scientist F and G)
7. Jan 2011 Aug 2015 DRDO Hq Director (Technical), Materials
Scientist G
8. Jul 2010 Dec 2011 University of Hyderabad
Visiting Professor
9. Apr 2012 Aug 2015 DIAT (DU) Pune Adjunct Faculty
10. Aug 2015 To date CSIR-CGCRI DIRECTOR
Dr K Muraleedharan: Resume Page 2
6. Area of Specialization:
• Electron Microscopy
• Atom Probe Field Ion Microscopy
• Materials Characterization
• Physical Metallurgy of Ti alloys
• Microstructural Characterization in Ti alloys and Intermetallics
• Specialty Steels for Defence (Naval)
• Nickel-base Superalloys
• Magnetic Materials (SmCo5 and Sm2Co17 based)
• Ceramic Matrix Composites
• Electronic Materials and Device Structures
• Tungsten-base Alloys for FSAPDS
• Nanostructured Materials
• Glass and Ceramics 7. Awards / Honors received:
Award / Honor Year Details
National
Min of Steel and Mines, Govt of India
and IIM, Kolkata 1992 Young Metallurgist Award
Institution of Engineers
[Metall. & Materials Science Division]
2011 Eminent Engineering Personality
Banaras Hindu University
2013 Distinguished Alumni Award
Professional bodies
MRSI 1999 Best Technical Paper in Bulletin of
Materials Science
EMSI 1999 Best Technical presentation award
IIM and EMSI 9 metallographic contest awards during 1997 to
2010 Indian Ceramics
Society 2015
MG Bhagat Memorial Lecture Award
Fellow EMSI 2011 Fellow of EMSI
DRDO Agni Awards 2005 Development of Naval Steels
2007 Ore to Product Cycle for Titanium
National Science
Day Oration 2007
Advanced TEM and 3DAP FIM Techniques
Any other (DMRL)
Annual Day and Technology Day
Awards
Five Best Technical Paper Awards and Two Best Technology Awards at DMRL Annual Day
Celebrations during 1997 -2010
Dr K Muraleedharan: Resume Page 3
8. Professional Affiliations:
Life Member
• Indian Institute of Metals, IIM (since 1980)
• Magnetic Society of India, MSI (since 1998)
• Electron Microscopy Society of India, EMSI(since 1997)
• Indian Vacuum Society (since 1999)
• Life Member, Indian Ceramic Society (since 2015)
Founding Life Member
• Materials Research Society of India, MRSI(since 1989)
Founding Member and Vice President
• Microscopy Society of India (2010)
Executive Committee Member, Vice President and President
• EMSI (Executive Committee: 2003-2005, 2010-to date
• Vice President (2011-2013)
• PRESIDENT EMSI (2013-2015)
• Chairman, East Zone, EMSI
• National Council Member, Indian Institute of Metals (2015-17)
• National Council Member, Indian Ceramic Society (2015-17)
• Presently, President, Indian Ceramic Society
Dr K Muraleedharan: Resume Page 4
9. (a) Number of Research Publications:
National journals International Journals
Seven (07) Total: Fifty (50)
48 published, 1 in press, 1 communicated
[details in Annexure I] [details in Annexure II]
Research papers presented in conferences
Conference Year
A total of 26 presentations (2 in National and 24
in International Conferences) that led to publications in Peer-reviewed
proceedings in a Journal / Book [Annexure III]
1997-2013
Technical Reports
19
Mostly DMRL, SSPL and DRDO technical Reports, see detailed list attached in
Annexure IV
In addition, I have delivered more than 80 invited talks, key note addresses in Seminars/ Workshops/ international and National Conferences and Continuing Education Programmes/Workshops. (b) List of best 5 publications in last 10 years:
10. Number of books authored/edited:
No. Title & Year Book Chapter(s)
1 On Specimen Preparation for Electron Microscopy
11. Number of patents granted/applied for:
Details Year of Filing
Development of Steel with YS 780MPa for Naval Applications, Indian Patent (K Muraleedharan, R Balamuralikrishnan, S Nagarjuna, K Ankalu, Nirmalya Rahri, B Gopalakrishna, Ashish Nandy, DMRL, Hyderabad)
2011
Dr K Muraleedharan: Resume Page 5
12. Dissertations supervisod: (a) Ph D: Three
COMPLETED
• DV Sridhara Rao at IIT, Delhi (2005)
(Dr R Muralidharan and Professor VD Vankar co-supervisors)
• Sai Saravanan at University of Hyderabad (2007) (Professor AP Pathak co-supervisor)
ON-GOING
• Sabyasachi Saha at IISc, Bangalore (Professor D Banerjee co-supervisor)
(b) Guidance Seven (7) B Tech projects while at DMRL
(c) Teaching at Post graduate Level:
Materials Characterization, Physical Metallurgy, Materials Selection and High Temperature Materials, Nano-technology
• University of Hyderabad (2009-2011) @ M Tech level
• DIAT (DU) (2012-to date) @ M Tech & Ph D level
(d) Post Graduate
Date:February 25, 2019
Place: Kolkata (Signature)
Dr K Muraleedharan: Resume Page 6
Specific Contributions of Dr Muraleedharan
Dr K Muraleedharan is one of the highly recognized experts in this country in the
area of electron microscopy and physical metallurgy. He has made significant
contributions in the understanding of physical metallurgy of a number of materials
useful to DRDO. He has employed efficiently and effectively the transmission
electron microscopy (TEM) technique, the primary tool of his research, in the
process-structure-property relationship in a number of materials systems. Some
of the major projects and activities that has benefited by his incisive analyses are:
Development of high temperature Ti-alloys; Indigenous productionization of DMR-
249A and DMR-249B steels for Indian Navy; High energy permanent magnets
based on Sm2Co5 and Sm2Co17 for the strategic sectors; Ni-base superalloys for
elevated temperature applications and W-base alloys for ordnance applications,
Ceramic matrix composites based on SiC-SiC and SiO2-SiO2 for high
temperature applications; and Electron microscopy of Electronic materials and
Device Structures.
Successes of two of the above activities (Indigenous Productionization Naval
Steels and Development of complete Ore-to-Product cycle in Ti metal) have led to
recognition by DRDO Agni Awards for the project teams in 2005 and 2007
respectively. Dr Muraleedharan played a key role in providing the microstructural
characterization for these activities.
He has also contributed significantly towards building a World-class structural
characterization infrastructure at DMRL. He has amply demonstrated his ability
and efficiency in building of infrastructure and laboratories and providing effective
scientific leadership. He led a visionary project DMR-254 entitled, ‘Science and
Design of Materials at Atomic Scale’ under which facilities for characterization
and modeling facilities have been set up at DMRL. This includes the only
3-dimensional atom probe in the country with a single atom resolution. His
contributions in the field of TEM and 3DAAP FIM studies have recently been
recognized by the Electron Microscopy Society of India and they bestowed on
him the Coveted EMSI Fellowship for the year 2011, during the Golden Jubilee
Celebrations of EMSI at Hyderabad. The Institution of Engineers, too recognized
his contributions by awarding him the ‘Eminent Engineering Personality’ Award at
its function held at BHU very recently.
Dr K Muraleedharan: Resume Page 7
He had pioneered and has been leading an activity with SSPL, GAETEC and IISc
as collaborators in the characterization of device structures based on GaAs and
GaN. Under this activity seminal research contributions have been made by the
group led by him. These efforts have led to the recognition and acceptance of
DMRL as the primary centre for characterization and modeling of nanostructured
materials in DRDO.
Dr Muraleedharan has also been a member of DRDO think tank, G-FAST where
he made significant contributions in forecasting and creating DRDO road maps in
a few materials related areas (Materials for Armour, Materials for Hypersonic
Vehicles, Materials for Electronic and Functional Applications, Stealth being some
of the examples).
He has been an active member of organizing committees of a number of events
and VVIP visits at DMRL. He played a stellar role in the organization of the visit of
the President of India to DMRL in 2005. He organized with a high degree of
efficiency, the visit of the Standing Committee on Defence to DMRL in 2007. He
was the driving force behind the organizing of an International Symposium on
Science, Technology and Policy that marked the 70th birthday of Dr VS
Arunachalam, the former SA to RM. He also was the Convener of the Golden
Jubilee Celebrations of DRDO at DMRL and organized many events, culminating
in the first ever Materials Cluster Symposium in 2008. Dr Muraleedharn was also
involved in the organization of many other events at Hyderabad and also the
nano2006 international at Bangalore. In 2010, he organized with University of
Hyderabad, a Workshop on Materials Modeling and Simulation that brought
together researchers and students working in this important area for discussion
on scope and roadmap for the area in materials R&D. He possesses theessential
skills in organizing events and will be in a position to provide active leadership in
many such activities in future.
He has also organized and lectured at many continuing education programmes
(CEP) at DMRL and other DRDO laboratories. During 2011, he has delivered 12
invited lectures at various S&T Organisations and Events covering his
contributions in the areas of Materials Characterisation and DRDO’s
nanotechnology programme.
While Dr Muraleedharan has made these significant contributions as a scientist,
team leader, project leader and an able organizer, he has contributed towards
Dr K Muraleedharan: Resume Page 8
the general management of the laboratory activities. He possesses the
necessary leadership and soft skills in addition to the technical acumen that he
has demonstrated so effectively. He has contributed to the laboratory as HRD
coordinator (2005-2006). He also served as the Division Head of Materials
Management activities at DMRL in addition to leading the electron microscopy
group as well as the project activities of development of specialty steels for Indian
Navy. He was the Director of the Materials Directorate at DRDO headquarters
and is also coordinating NBC Defence as well as nano Science and Technology
activities of DRDO. He played a key role in shaping the XII Plan activities for
Materials Cluster and also has also consolidated the efforts to have a major
DRDO programme for the Production and Certification of Specialty steels for ship
and submarine construction in India.
Dr Muraleedharan has been a member of the DMRL family in various capacities
involving R&D, product development, planning and executing projects, human
resources, materials management and buildup activities. He was selected in 2011
to lead the Directorate of Materials at DRDO, as he possesses the necessary
domain knowledge and technical expertise, experience in various laboratory
functions, the required motivation.
Currently he is the Director of Central Glass and Ceramics Research Institute,
Kolkata under the Council of Scientific and Industrial Research. He is guiding the
Institute into new horizons where the leadership has to be provided to make the
institute more and more self-sufficient. Many technologies and products from the
institute are becoming crucial for the National Missions of the Government of
India. He is also evolving new HR policies for the transformation of the institute
into a more effective and efficient unit of CSIR.
Dr K Muraleedharan: Resume Page 9
Annexure I
List of publications
National Journals
1. ‘Creep of a � Heat Treated Titanium Alloy’, D Mukherjee, D Banerjee and K Muraleedharan, Trans IIM, Vol 42 (supplement) (1989) S155-164.
2. 'Transmission Electron Microscopy and X-ray Diffraction Studies of
Characterisation of Quantum Wells', DV Sridhara Rao, K Muraleedharan, GK Dey, G Bhagavannarayan, P Banerji, D Pal and DN Bose, Bull. Mater. Sci.Vol 22 (1999) 947-951.
[WON AWARD FOR BEST PAPER] 3. ‘Studies on Sm(Co0.9-xFexCu0.1)4.8 Nanocomposite Magnetic Powder’,
K Suresh, R Gopalan, AK Singh, K Muraleedharan, DV Sridhara Rao and V Chandrasekharan, Indian Journal of Physics, Vol 78A (2004) 115-119.
4. ‘Estimation of the Voltage of Transmission Electron Microscope (TEM) by
<012> CBED-HOLZ Analysis using GaAs Crystal’, DV Sridhara Rao, R Balamuralikrishnan and K Muraleedharan, Bull Mater Sci, Vol 27 (2004) 471-482.
5. ‘Transmission Electron Microscopy Characterization Of Electronic Materials
And Device Structures’, DV Suidhara Rao, G Sai Saravanan, K Muraleedharan, R Balamuralikrishnan,R Muralidharan and HP Vyas,Metals Materials and Processes, Vol 19 (2007) 171-180.
6. ‘Continuous Casting and Controlled Rolling of a Microalloyed HSLA Steel
DMR-249A’, N Venkateswara Rao, BS Bansal, K Ankalu, Abhijit Dutta, M Srinivas, K Muraleedharan, R Balamuralikrishnan, and G Malakondaiah, Metals Materials and Processes, Vol 19 (2007) 261-272.
7. ‘Electron Microscopy of MW-CNTs for Display Devices Application’,
P Ghosal, R Sarkar, K Muraleedharan, P Chaturvedi, JSBS Rawat and Harsh, Defence Science Journal, Vol 58 (2008) 655.
Dr K Muraleedharan: Resume Page 10
Annexure II
List of publications
International Journals
1. ‘The Quasicystalline Phase in the Mg-Al-Zn System’, T Rajasekharan, D
Akhtar, R Gopalan and K Muraleedharan, Nature, Vol 322 (1986) 528-530. 2. ‘Structure of Vapour-Deposited (Fe, Co, Ni)-Ge Alloy Films’, D Akhtar, RP
Mathur and K Muraleedharan, International Journal of Rapid Solidification, Vol 2 (1987) 273-281.
3. ‘Identification of t’ phase in ZrO2-7.5wt% Y2O3 Thermal-Barrier Coatings’, K
Muraleedharan, J Subramanyam and SB Bhaduri, J of American Ceramic Society, Vol 71 (1988) C226-227.
4. ‘Creep of Zircaloy-2 at Low Stresses’, N Prasad, G Malakondaiah,
K Muraleedharan and P Rama Rao, J of Nuclear Materials , Vol 158 (l988) 30-41.
5. ‘Alloy Partitioning in Ti-24Al-11Nb by Analytical Electron Microscopy’,
K Muraleedharan, D Banerjee, Metall. Trans. A. Vol 20A (1989) 1139-1142. 6. ‘Orthorhombic Distortions of the �2 Phase in Ti3Al-Nb Alloys - Artifacts and
Facts’, K Muraleedharan, SV Nagender Naidu and D Banerjee, Scripta MetallMater, Vol 24 (1990) 27-32.
7. ‘Transformations in a Ti-24A1-15Nb Alloy: Part I. Phase Equilibria and
Microstructure, K Muraleedharan, AK Gogia, TK Nandy, D Banerjee and S Lele, Metall Trans A, Vol 23 (1992) 401-415.
8. ‘Transformations in a Ti-24A1-15Nb Alloy: Part II. A Composition Invariant
�o-->O Transformation’, K Muraleedharan, TK Nandy, D Banerjee and S Lele, Metall Trans A, Vol 23 (1992) 417-431.
9. ‘The Effect of Heat Treatment and Nb Content on the Room Temperature
Tensile Properties and Microstructure of Ti3Al-Nb Alloys’, AK Gogia, TK Nandy, K Muraleedharan and D Banerjee, Mater Sci Eng A, Vol A159 (1992) 73-86.
10. ‘Phase Transformations Involving the Alpha-2 and O Phases in
Ti-Al-Nb Alloys’, K Muraleedharan and D Banerjee, Scripta Metall Mater,Vol 29 (1995) 527-532.
11. ‘Hot Deformation Characteristics of Inconel Alloy MA754 and Development of
Processing Map’, MC Somani, K Muraleedharan, NC Birla, V Singh and YVRK Prasad,Metall. Trans. A, Vol 25A (1994) 1693-1702.
Dr K Muraleedharan: Resume Page 11
12. ‘Carbide Precipitation in 2.25 Cr-1 Mo Steel and its Weldments During Creep Testing’, S Ahila, PBSNV Prasad, S Ramakrishna Iyer, VM Radhakrishnan and K Muraleedharan,Materials Letters, Vol 20 (1994) 107-111.
13. ‘Phase Stability and Ordering Behaviour of the O Phase in Ti-Al-Nb Alloys’, K
Muraleedharan, TK Nandy, D Banerjee and S Lele, Intermetallics, Vol 5 (1995) 187-199.
14. ‘Effect of Silicon on Elevated Temperature Properties of a Ti3Al Based Alloy’,
PK Sagar, TK Nandy, AK Gogia, K Muraleedharan, D Banerjee, Mater. Sci. Eng. A,Vol A192/193 (1995) 799-804.
15. ‘The �2 to O Transformation in Ti-Al-Nb Alloys’, K Muraleedharan,
D Banerjee, S Banerjee and S Lele, Philosophical Magazine A, Vol 71 (1995) 1011-1036.
16. ‘High-temperature Mechanical Behaviour of Cold-worked Stress-relieved Zr-
2.5Nb’, K Kapoor, K Muraleedharan and K.M. Sreedharan, J of Materials Engineering and Performance, Vol 4 (1995) 610-16.
17. ‘Effect of Titanium Substitution on the Structure and Properties of Fe3Al
Based Intermetallic Alloys’, U Prakash, K Muraleedharan, RA Buckley, H Jones, PA Shenton, J Mater Sci, Vol 31 (1996) 1569-1573.
18. ‘In-situ Observations of Crack Initiation and Growth at Notches in Cast
Ti-48Al-2Cr-2Nb’, TM Pollock, DR Mumm, K Muraleedharan and PL Martin, Scripta Materialia,Vol 35 (1996) 1311-1316.
19. ‘High Temperature Deformation Processing of Ti-24Al-20Nb’,
PK Sagar, D Banerjee, K Muraleedharan and YVRK Prasad, Metall Mater Trans A, Vol 27A (1996) 2593-2604.
20. ‘Substructure in Titanium Alloy Martensite’, D Banerjee,
K Muraleedharan and JL Strudel, Philosophical Magazine A, Vol 77 (1998) 299-323.
21. ‘Mechanical Processing and Microstructural Control in Hot Working of Hot
Isostatically Pressed P/M IN-100 Superalloy’, MC Somani, K Muraleedharan, YVRK Prasad and V Singh,Mater Sci Eng A, Vol A245 (1998) 88-99.
22. ‘Microstructure Evolution and Tensile Properties of Zr-2.5wt%Nb Pressure
Tubes Processed from Billets with Different Microstructures’, K Kapoor and K Muraleedharan, and N Saratchandran, J of Materials Engineering and Performance, Vol 8 (1999) 61-67.
Dr K Muraleedharan: Resume Page 12
23. 'Current Status of the Phase Diagrams: Ti-Al and Al-Li', T.B. Massalski and K. Muraleedharan, Advanced Light Alloys and Composites (NATO Science Series Partnership Sub-Series 3, High Technology, Vol 59)Ed: R Ciach, Kulwer Academic Publishers, Netherlands (1998), pp 1-10.
24. 'Development of W-Co-Ni Heavy Alloy System', TP Bagchi, P Ghosal,
K Muraleedharan and B Sarma, P/M Science and Technology Briefs, Vol 2 (2000) 947-951.
25. 'Studies on Structural Transformation and Magnetic Properties in Sm2Co17
Type Alloys', R Gopalan, K Muraleedharan, TSRK Sastry,AK Singh, VA Joshi, DV Sridhara Rao and V Chandrasekharan, J Mater Sci, Vol 36 (2001) 4117-4123.
26. 'Structural Investigations in 2:17 Type SmCo Alloys', R Gopalan,
K Muraleedharan, TSRK Sastry, S Suwas, VA Joshi and V Chandrasekharan, Trans. Materials Research Society of Japan, Vol 26 (2001) 801-804.
27. 'Effect of Thermomechanical Processing on Microstructure of a
Ti-13Nb-13Zr Alloy', M Geetha, AK Singh, K Muraleedharan, AK Gogia and R Asokamani, J. Alloys and Compounds, Vol 329 (2001) 264-271.
28. ‘Solidification Structure in a Cast � Alloy', AK Singh, K Muraleedharan and
D Banerjee, Scripta Mater., Vol 48 (2003) 767-772.
29. ‘Structure and Photoluminescence Characterisatics of Molecular Beam Epitaxially Grown Vertically Aligned In0.33Ga0.67As/GaAs Quantum Dots’, T Srinivasan, SN Singh, SK Mehta, R Muralidharan, DV Sridhara Rao, R Balamuralikrishnan and K Muraleedharan, J Crystal Growth, Vol 280 (2005) 378-384.
30. ‘TiAlN/TiAlON/Si3N4 tandem absorber for high temperature solar selective
applications’, Harish C Barshilia, N Selvakumar, KS Rajam, DV Sridhara Rao, K Muraleedharan, and A Biswas, Appl. Phys. Lett.,Vol 89 (2006) 191909 [DOI: 10.1063/1.2387897]
31. ‘Ion beam analysis of defects and strain in swift heavy ion irradiated
InGaAs/GaAs heterostructures”, S Dhamodaran, N Sathish, AP Pathak, DK Avasthi, R Muralidharan, B Sundaravel, KGM Nair, DV Sridhara Rao, K Muraleedharan, and D Emfietzoglou, Nucl. Inst. Methods B, Vol 254 (2007) 283-288.
32. ‘Three-Dimensional Atom Probe Investigation of Microstructural Evolution
during Tempering of an Ultra-High-Strength High-Toughness Steel’, R Veerababu, R Balamuralikrishnan, K Muraleedharan, and M Srinivas, Metall. Mater. Trans. A, Vol 39A (2008) 1486-1495. DOI: 10.1007/s11661-007-9333-0
Dr K Muraleedharan: Resume Page 13
33. ‘Grain Size and Grain Boundary Character Distribution in Ultra-fine Grained (ECAP) Nickel’, K Sitarama Raju, M Ghanashyam Krishna, KA Padmanabhan, K Muraleedharan, NP Gurao, G Wilde’, Materials Science and Engineering A, Vol 491 (2008) 1-7.
34. ‘Deposition and Characterization of TiAlN/TiAlON/Si3N4 Tandem Absorbers
prepared using Reactive Direct Current Magnetron Sputtering", Harish C Barshilia, N Selvakumar, KS Rajam, DV Sridhara Rao and K Muraleedharan, Thin Solid Films, Vol 516 (2008) 6071–6078.
doi: 10.1016/j.tsf.2007.10.113 35. ‘Phase formation, microstructure and magnetic properties investigation in Cu
and Fe substituted SmCo5 melt-spun ribbons’, K Suresh, R Gopalan, G Bhikshamaiah, AK Singh, DV Sridhara Rao, K Muraleedharan, and V Chandrasekaran, Journal of Alloys and Compounds, Vol 463 (2008) 73-77
36. ‘Ohmic contacts to pseudomorphic HEMTs with low contact resistance due to
enhanced Ge penetration through AlGaAs layers’, G Sai Saravanan, K Mahadeva Bhat, K Muraleedharan, HP Vyas, R Muralidharan and AP Pathak, Semiconductor Science and Technology, Vol 23 (2008) 501-506. [(2008) 025019 doi: 10.1088/0268-1242/23/2/025019]
37. ‘Characterization and Sintering Studies of Mechanically Milled nano
Tungsten Powder’, R Sarkar, P Ghosal, M Premkumar, AK Singh, K Muraleedharan, A Chakraborti, TP Bagchi and B Sarma, Powder Metallurgy, Vol 51 (2008) 166-170.
38. ‘Influence of activation of Si29+ ion-implantation in GaAs on ohmic contact
resistance and electrical performances of MESFETs’, G Sai Saravanan, K Mahadeva Bhat., HP Vyas, K Muraleedharan and AP Pathak, Radiation effects and defects in solids, Vol 163 (2008) 737.
39. ‘Spark Plasma Sintering of Magnesia Doped Alumina with High Hardness
and Fracture Toughness’, Dibyendu Chakravarty, Sandip Bysakh, K Muraleedharan, T Narasinga Rao, R Sundaresan, J. Amer Ceram Soc, Vol 91 (2008) 203-208.
40. ‘TEM and 3D Atom Probe Characterisation of Nickel-Base Superalloy DMS4’,
K Muraleedharan, R Balamuralikrishnan, N Das, J Mater Sci, Vol 44 (2009) 2218-2225.
41. ‘Microstructure and coercivity variation in melt-spun Sm-Co-Fe-Zr ribbons’,
K Suresh, R Gopalan, DV Sridhara Rao, AK Singh, G Bhikshamaiah, K Muraleedharan and V Chandrasekaran, Intermetallics, Vol 18 (2010) 2244-2249.
42. ‘Modulated Monoclinic Crystal Structure and Large Shape Memory Effect in
Nickel-rich Ni53.5Mn26.0Ga20.5’, M Ramudu, A satish Kumar, V Seshubai,
Dr K Muraleedharan: Resume Page 14
K Muraleedharan, KS Prasad and T Rajasekharan, Scripta Mater., Vol 63 (2010) 1073-1076.
43. ‘Unprecedented Current Density to High Fields in YBa2Cu3O7-�
Superconductor Through nano-defects Generated by Preform Optimization in Infiltration Growth Process’, N Devendra Kumar, T Rajasekharan, K Muraleedharan, A Banerjee and V Seshubai, Superconductor Sci Technol., Vol 23 (2010) 105020.doi: 10.1088/0953-2048/23/10/105020
44. ‘Structural, magnetic and transport properties of Ni-Fe-Al alloys’, SN Kaul,
AC Abhyankar, DV Sridhar Rao, K Muraleedharan, AK Nigam and L Fernandez Barquin,Materials Science Forum, Vol 635 (2010), 111-116.
45. ‘Effect of strain rate on ductile-to-brittle transition temperature (DBTT) of a
free-standing Pt-aluminide bond coat’, Md Z Alam, D Chatterjee, K Muraleedharan, TK Nandy, V Jayaram, SV Kamat and DK Das, Metall. Mater. Trans. A, Vol 42 (2011) 1431-1434.
46. ‘Effect of boron and carbon addition on microstructure and mechanical
properties of Ti-15-3 alloy’, R Sarkar, P Ghosal. K Muraleedharan, TK Nandy and KK Ray, Mater. Sci. Engg. A, Vol 528 (2011) 4819-29
47. 'Electron Microscopy investigations of purity of AlN interlayer in AlGaN/GaN
heterostructures grown by plasma assisted molecular beam epitaxy' DV Sridhara Rao, Anubha Jain, Sushil Lamba, K Muraleedharan, and R Muralidharan, Appl. Phys. Lett.,Vol. 102, xxxx-yyyy (2013), [http://dx.doi.org/10.1063/1.4805027]
48. Radiaion Effects in Solids
In Press 49. MaM Communicated 50. ‘3D atom probe investigation of sub-nanometric clusters in a medium carbon
secondary hardening ultra-high strength steel under different tempering conditions’, R Veerababu, R Balamuralikrishnan, K Muraleedharan, and M Srinivas, submitted to Metall. Mater. Trans. A, Jan 2014.
Dr K Muraleedharan: Resume Page 15
CHAPTER in Book (2011 EDITION)
Microscopy: Science, Technology, Applications and Education
Editors: A Mendez, J Diaz Formatex Reseach Center, Spain
TEM specimen preparation techniques
D. V. Sridhara Rao1, K. Muraleedharan1 and C. J. Humphreys2 1Electron Microscopy Group, Defence Metallurgical Research Laboratory,
Kanchanbagh Post, Hyderabad 500 058, India 2 Department of Materials Science and Metallurgy, University of Cambridge,
Cambridge, CB2 3QZ, United Kingdom
Transmission electron microscopy (TEM) is a powerful tool for the investigation of the microstructure of materials, providing crystallographic information and composition at the nanometer scale. For such studies, samples should be transparent to the electron beam. In this review, TEM sample preparation techniques for different classes of materials, such as metals and alloys, multilayered coatings, device structures, nanomaterials and composites are described with illustrative examples. Also, site-specific TEM specimen preparation using focused ion beam (FIB) milling is presented. As specimen preparation involves thinning the sample to electron transparent thickness it can result in artifacts, which are briefly reported.
KeywordsTEM; Specimen preparation; TEM foils; electropolishing; ion milling; FIB; artifacts
1. Introduction
In transmission electron microscopy (TEM), a high-energy electron beam (~ 200 keV) interacts with an electron transparent (~ 100-150 nm thick) specimen in order to study the microstructure and composition. Preparation of such a thickness is both an art and a science. It needs the devising of suitable methods as well as realising/demonstrating them in a defined process with reproducibility. Also, utmost care is necessary in preparing and handling the specimens, as they are extremely thin and hence prone to bending and breaking.
In this review, we describe techniques for preparing TEM specimens of the following classes of materials, with illustrative examples: metals and alloys (§2); multilayers, semiconductor/metallic coatings, device structures (§3); nanomaterials, tubes/particles, ribbons, mechanical-milled powders (§4); composites (§5); miscellaneous materials including brittle materials (§6); and site-specific TEM specimen preparation (§7). TEM specimen preparation involves thinning of specimens to electron transparent thickness. Hence it could result in artifacts, some of which are described in §8. The different equipment/operating conditions mentioned we have been successfully using in our laboratories.
2. Metals and Alloys
Dr K Muraleedharan: Resume Page 16
Annexure III
International and National Conferences
(PUBLISHED IN PEER-REVIEWED JOURNALS AS SPECIAL ISSUES OR
CONFERENCE PROCEEDINGS)
A. National Conferences
1. 'Specimen Preaparation and Characterisation of Thin Film Multilayer Structures by Transmission Electron Microscopy (TEM)', DV Sridhara Rao, GK Dey and K Muraleedharan, Proc. of the DAE-BRNS Workshop on Thin Film Multilayers, October 1999, BARC, Mumbai, pp. 30-33.
2. ‘CNT Based Cold Cathode for Vacuum Electronic Devices’, S Pal,
P Kumar, P Chaturvedi, P Verma, JSBS Rawat, P Ghosal,
K Muraleedharan, PK Bhatnagar, Harsh and HP Vyas, Proc. Of VEDA
Workshop, 2005, pp. S-I 4.1-4.5
B. International Conferences
3. ‘Microstructure and Phase Relations in the Ti3Al-Nb Section’, D Banerjee, TK Nandy, AK Gogia and K Muraleedharan, Proc. of Sixth World Conference on Titanium, Vol. 1, Eds. P Lacombe, R Tricot and G Beranger, J. de Phys. Les Ulis France, 1989, pp. 1091-1096.
4. ‘Influence of Metastable Beta on the Low Cycle Fatigue Behaviour of
Ti-6.5Al-3.5Mo-1.9Zr-0.2Si Alloy’, VK Varma, K Muraleedharan and G Malakondaiah, Advances in Fracture Research - Proc of the Seventh International Conference on Fracture, ICF 7, Vol. 2, Eds. K Salama, K Ravi-Chandar, DMR Taplin and P Rama Rao, University of Houston, Houston, Texas, 1989, pp. 1331-1338.
5. ‘Phase Equilibria in Ti-Al-Nb Alloys Near Ti2NbAl’, RG Rowe, D Banerjee,
K Muraleedharan, M Larsen, EL Hall, DG Konitzer and AP Woodfield, Titanium 92 Science and Technology,Vol. II, Eds. FH Froes and IL Caplan, TMS, Warrendale, PA, 1993, pp. 1250-1256.
6. ‘The Physical Metallurgy of Ti3Al Based Alloys’, D Banerjee, AK Gogia,
TK Nandy, K Muraleedharan and RS Mishra, Structural Intermetallics, Eds. R Darolia, JJ Lewandowski, CT Liu, PL Martin, DB Miracle, MV Nathal, TMS, Warrendale, PA, 1993, pp. 19-34.
Dr K Muraleedharan: Resume Page 17
7. ‘Texture and Anisotropy of Ti-22Al-23Nb Foil’, AD Rollett, K Muraleedharan, PR Smith and MR James, Deformation and Fracture of Ordered Intermetallic Alloys’ Eds. WO Soboyejo,TS Srivatsan and HL Fraser, TMS, Warrendale, PA, 1996, pp. 45-56.
8. ‘The Effect of Cooling Rate During Casting on Microstructural Development
in Ti-48Al-2Cr-2Nb Type Alloys’, K Muraleedharan,LL Rishel, M DeGraef, AW Cramb, TM Pollock and GT Gray III, Structural Intermetallics 1997, Eds. MV Nathal, R Darolia, CT Liu, PL Martin, DB Miracle, R Wagner and M Yamaguchi, TMS, Warrendale, PA, 1997, pp. 215-224.
9. ‘Influence of Chromium, Vanadium and Boron on Microstructure and Ductility
of Al3Ti’, K Muraleedharan, N Das,TK Nandy and ML Bhatia, Aluminium -Strategies for the Nineties and Beyond - Proc. of the 2nd International Conference on Aluminium , INCAL ‘91,Vol. 2, Eds. ES Dwarakadasa, S Seshadri and KP Abraham, Aluminium Association of India, Bangalore, India, 1991, pp. 603-608.
10. 'Microstructural Characterisation of MBE Grown Quantum Well Structures by
Cross Sectional Transmission Electron Microscopy', DV Sridhara Rao,K Muraleedharan, GK Dey, SK Mehta, T Srinivasan, R Muralidharan, BP Jain, RK Jain and V Kumar, Proc. of the Tenth International Workshop on Physics of Semi Conductor Devices, Solid State Physics Laboratory, Eds. V Kumar and SK Agarwal, Allied Publishers, New Delhi, 1999, pp 259-263.
11. 'TEM Characterisation of Nichrome Thin Films', DV Sridhara Rao,
K Muraleedharan, S Vinayak and HP Vyas, Proc. of the Eleventh International Workshop on Physics of Semi Conductor Devices, Solid State Physics Laboratory Eds. V Kumar and PK Basu, Allied Publishers, New Delhi, 2001, pp 1190-1193.
12. ‘Growth and Characterisation of p-HEMT Structures Grown by Molecular
Beam Epitaxy’, R Muralidharan, T Srinivasan, Umesh Tiwari, SK Mehta,
RK Jain, DV Sridhara Rao, K Muraleedharan and R Balamuralikrishnan,
Proc. International Conference of Physics at Surfaces and Interfaces,
World Scientific, Singapore, 2003, p. 55
13. ‘Structural Characteristics of Molecular Beam Epitaxy Grown Vertically
Aligned In0.33Ga0.67As/GaAs Quantum Dot Superlattice’, T Srinivasan, Umesh
Tewari, R Muralidharan DV Sridhara Rao, R Balamuralikrishnan, and K
Muraleedharan, Physics of Semiconductor Devices (IWPSD-2003), Eds.
KN Bhat and A DasGupta, Narosa Publishers, 2004, Vol. 2, p.1068.
14. ‘Effect of Growth Conditions and Indium Composition on The Formation Of
Quantum Dots in InxGa1-XAs/GaAs System: TEM Studies’, DV Sridhara Rao,
R Balamuralikrishnan, K Muraleedharan, T Srinivasan, TN Singh, SK Mehta
and R Muralidharan, Physics of Semiconductor Devices (IWPSD-2003),
Eds. KN Bhat and A DasGupta, Narosa Publishers, 2004, Vol. 2, p.1080.
Dr K Muraleedharan: Resume Page 18
15. ‘InxGa1-xAs Quantum Dots: Structural studies by RHEED, AFM, and TEM’,
DV Sridhara Rao, K Muraleedharan, R Balamuralikrishnan, T Srinivasan, R
Muralidhran, P Sen, VD Vankar, The Physics of Semiconductor Devices,
Allied Publishers, 2005, Eds. Vikram Kumar, SK Agarwal and SN Singh, Vol
I, pp. 440-443.
16. “Pulse reversal electrodeposition for fine-grained structure and superior wire
bond strength in metallisation of MMICs”, G Sai Saravanan, Sandeep
Chaturvedi, SD Prasad, Sangam Bhalke, K Muraleedharan, HS Sharma and
HP Vyas, The Physics of Semiconductor Devices, Allied Publishers, 2005,
Eds.Vikram Kumar, SK Agarwal and SN Singh, Vol II,pp.847-851.
17. “Influence of oxygen plasma treatment on the uniformity of activation of rapid
thermal anneled GaAs wafers”, G Sai Saravanan, MN Mudholkar,
K Mahadeva Bhat, Vijay V Subraveti, AVSK Rao, K. Muraleedharan,
AP Pathak and HP Vyas, The Physics of Semiconductor Devices, Allied
Publishers, 2005, Eds.Vikram Kumar, SK Agarwal and SN Singh, Vol II,
pp.852-856.
18. ‘HRXRD and CBED Characterisation of LT GaAs’, Pushpashree Mishra,
T Srinivasan, SN Singh, RK Sharma, R Muralidharan, DV Sridhara Rao and
K Muraleedharan, The Physics of Semiconductor Devices, Allied
Publishers, 2005, Eds.Vikram Kumar, SK Agarwal and SN Singh, Vol II,
pp.1487-1491.
19. ‘Transmission electron microscopy of InxAl1-xAs metamorphic buffer layers
grown on GaAs substrate’, S Bysakh, K Muraleedharan, TK Nandy, R
Muralidharan, and T Srinivasan, The Physics of Semiconductor Devices,
Allied Publishers, 2005, Eds.Vikram Kumar, SK Agarwal and SN Singh, Vol
II, pp.1492-1495. 20. ‘Characterisation of GaAs Based Multilayer Semiconductor Device
Structures’, DV Sridhara Rao, K Muraleedharan, S Bysakh, R Balamuralikrishnan, TK Nandy, R Muralidharan, T Srinivasan, P Mishra, P Sen, V. D Vankar, and D Banerjee, Frontiers in the Design of Materials, Eds. Baldev Raj, S Ranganathan, SL Mannan, K Bhanu Sankara Rao, MD Mathew and P Shankar, Universities Press, Hyderabad, India, 2007, pp. 225-237.
21. ‘Reliability studies of AuGe/Ni/Au ohmic contacts to MESFETs by
accelerated thermal aging tests’, G Sai Saravanan, K Mahadeva Bhat, HP Vyas, Sandeep Chaturvedi, Sangam V Bhalke, R Muralidharan,
K Muraleedharan and AP Pathak, Proc. 14thIEEE Int. Workshop on Physics
of Semiconductor Devices, (Mumbai, India), Dec. 2007,IEEE-IWPSD 2007, pp. 462-465.
Dr K Muraleedharan: Resume Page 19
22. ‘Studies on Alloying Element Partioning in DMS4 Nickel Base Superalloy
using Monte Carlo Simulations and 3D Atom Probe’, R Balamuralikrishnan, R Sankarasubramanian, Mohan P Pathak, K Muraleedharan and N Das, in Superalloys 2008, Proc. International Symposium on Superalloys, Ed. RC Reed, KA Green, P Caron,TP Gabb, MG Fahrmann, EC Huron and SA Woodard, TMS, Warrendale, PA, 2008, pp. 993-1002.
23. ‘Determination of the Lattice Parameters and Composition of III-V
Semiconductor Thin Films using the CBED-HOLZ Technique’, DV Sridhara Rao, K Muraleedharan, R Balamuralikrishnan, D Banerjee, D Holec, MJ Kappers and CJ Humphreys, Invited Paper, in Proc. of the International Workshop on he Physics of Semiconductor Devices (IWPSD), 2009, p. 134.
24. ‘Growth and Characterisation of Distributed Bragg Reflectors for Application
in Vertical Cavity Surface Emitting Laser (VCSELs)’, Pushpashree Mishra, Akhilesh Pandey, R Raman, Sabyasachi Saha, SK Jangir, Vikash K Singh, SN Singh, T Srinivasan, SK Mehta and K Muraleedharan, in Proc. of the International Workshop on Physics of Semiconductor Devices (IWPSD), 2009, p. 1097-1099.
25. ‘TEM Studies of Multilayered In0.33Ga0.67As Quantum Dots’,
DV Sridhara Rao, K Muraleedharan, R Balamuralikrishnan, T Srinivasan, R Muralidharan, and D Banerjee, Microscopy of Semiconducting Materials XVI, Oxford, 2010 (in press).
26. ‘An Investigation of Silicon Boride Surface Layer Resulting from Boron
Diffusion in Silicon’, Karthick Murukesan, DV Sridhara Rao, K Muraleedharan, AK Kapoor, A Dhaul, BS Yadav and BM Arora, IEEE Transactions, in press (2012).
Dr K Muraleedharan: Resume Page 20
Annexure IV
Technical Reports
1. ‘Structure and Properties of Ti-6.5Al-3.2Mo-1.8Zr-0.25Si Alloy’,
D Banerjee, RL Saha, D Mukherjee and K Muraleedharan, DMRL Technical
Report, DMRL-TR-8983, March 1989.
2. ‘Development of an Advanced High Temperature Titanium Alloy -III’,
AK Gogia, TK Nandy, K Muraleedharan and D Banerjee, DMRL Technical
Report,DMRL-TR-90110, April l990.
3. ‘Disk Manufacturing Technology for Ti-6.5Al-3.2Mo-1.8Zr-0.25Si Alloy’,
AK Bhatia, S Bhargava, D Banerjee, RL Saha, D Mukherjee and
K Muraleedharan, DMRL Technical Report, DMRL-TR-91141, September
1991.
4. ‘Microanalysis of Phases in the Ti-Al-Nb System’, K Muraleedharan and
D Banerjee, DMRL Report to GE Corporate R&D, Schenectady, NY, U.S.A.,
November 1992.
5. ‘Development of an Advanced High Temperature Titanium Alloy-V’,
AK Gogia, TK Nandy, K Muraleedharan, VA Joshi, SV Kamat and
D Banerjee, DMRL Technical Report, DMRL-TR-93116, May l993.
6. ‘Development of an Advanced High Temperature Titanium Alloy -VI: Effect of
Nb in Ti3Al Based Alloys’, AK Gogia, TK Nandy, K Muraleedharan, VA
Joshi, PK Sagarand D Banerjee, DMRL Technical Report,DMRL-TR-94175,
June 1994.
7. ‘Development of an Advanced High Temperature Titanium Alloy -VII:
Analysis and Control of Aluminium in Ti3Al Based Alloys’, SV Athavale,
TV Balasubramanyan, VV Rama Rao, K Muraleedharan, AK Gogia,
TK Nandyand D Banerjee, DMRL Technical Report,DMRL-TR-94183,
September 1994.
8. ‘Development of a Nickel Based Single Crystal Superalloy for Gas Turbine
Application’, N Das, K Muraleedharan, GS Sarma, AV Athavale, BV Rao
and VV Rama Rao, DMRL Technical Report,DMRL-TR-95191, May 1995.
9. 'A First Report on the DMRL-GAETEC Collaborative Program on MMICs',
K Muraleedharan, DV Sridhara Rao, TV Balasubramanian, VA Joshi, HP Vyas, P Suryanarayana, SD Prasad, AVSK Rao and PA Govindacharyulu, GAETEC, Hyderabad, April 1999.
Dr K Muraleedharan: Resume Page 21
10. 'Development of Nichrome Thin Film Resistors', S Vinayak, HP Vyas, K Muraleedharan, DV Sridhara Rao, TV Balasubramanyan, SSPL Technical Report, January 2001.
11. ‘Concast Processed DMR-249A Steel Plates: Structure and Properties’,
N Venkateswara Rao, BS Bansal, K Ankalu, M Srinivas, K Muraleedharan, R Balamuralikrishnan and G Malakondaiah, DMRL Technical Report, 2005.
12. ‘Melting and Processing of DMR-249B Steel Plates through Ingot Route’,
N Venkateswara Rao, BS Bansal, K Ankalu, M Srinivas, K Muraleedharan, R Balamuralikrishnan, G Malakondaiah, and SR Sahay, DMRL Technical Report, DMRL TR 2006 405, July 2006
13. ‘Characterization of MulitWall Carbon Nanotubes (MWNTs) by Electron
Microscopy,’ Partha Ghosal, Rajdeep Sarkar, K Muraleedharan, P Chaturvedi, JSBS Rawat and Harsh, DMRL Technical Report, DMRL TR 2006 416, November 2006.
14. ‘Preparation of Samples for Transmission Electron Microscopy’,
DV Sridhara Rao and K Muraleedharan, DMRL Technical Report, DMRL TR 2006 419, December 2006.
15. ‘Synthesis and Characteriszation of Nano Tungsten Powder’, R Sarkar,
P Ghosal, M Premkumar, AK Singh, K Muraleedharan, A Chakraborti, TP Bagchi and B Sarma, DMRL Technical Report, DMRL TR 2007 431, August 2007.
16. ‘3D Atom Probe Characterisation of Ultra Strength and High Toughness
Steels’, R Veerababu, R Balamuralikrishnan, K Muraleedharan and M Srinivas, DMRL Technical Report, DMRL TR 2008 443, March 2008.
17. ‘TEM Nanoindentor Holder – A Tool for In-situ Mechanical Property
Characterization of Small Volume Materials, Rajdeep Sarkar, Atul Kumar, Partha Ghosal, R Balamuralikrishnan, SV Kamat, K Muraleedharan and K Mukhopadhyay, DMRL Technical Report, DMRL TR 2008 449, April 2008.
18. Development of 780MPa Steels for Naval Applications: Part I: Initial Trials on
Composition and Heat treatment Optimization, Nirmalya Rahri, Paramanand Bairwa, R Veerababu, K Ankalu, S Nagarjuna, R Balamuralikrishnan, K Muraleedharan and M Srinivas, DMRL Technical Report, DRDO-DMRL-SSG-033-2012, December 2012
19. Development of 780MPa Steels for Naval Applications: Part II: Realisation of
Industrial Production, Nirmalya Rahri, Paramanand Bairwa, R Veerababu, K Ankalu, S Nagarjuna, R Balamuralikrishnan,K Muraleedharan and M Srinivas, DMRL Technical Report, DRDO-DMRL-Technical Report, in Press